DE3727269C2 - - Google Patents

Description

The invention relates to a gas supply and Ver sub-device according to the preamble of claim 1.

It is known to bulk material on a gas distribution layer piling and gas through outlet openings the gas distribution layer into the bulk material initiate (DE-OS 36 34 377). The bulk material, mostly organic material such as compost, wood schnitzel, peat u. Like., is loose on the gas distribution layer distributed. Connected by gas treatment with rainwater or artificial irrigation Microbial growth stimulated. This can either microbial cleaning of the raw gas supplied led or the rotting process of the biological  Bulk material are accelerated. Furthermore, the Device for ventilation and storage of various Fabrics such as Cereals, potatoes, fruit, konta mined floors u. Like. Be used.

In the known gas supply and distribution device the gas distribution layer consists of numerous concrete stones that are placed against each other to make the load-bearing surface for the bulk material form. Each of the stones has a longitudinal one Distribution channel, the stones against be placed that the distribution channels one Line of stones in alignment. At the against abutting sides of the stones are slit-like recesses attached to the top joint form edge exit slots, which with the Distribution channels are connected. In this way is raw gas, which is introduced into the gas distribution layer was spread over the entire area from below introduced into the bulk material.

The known gas supply and distribution device has the disadvantage that the production of the gas distribution layer due to paving with numerous stones is agile and labor intensive. Furthermore, one time installed system practically no longer disassembled and to be rebuilt. It also requires feeding of the raw gas into the gas distribution layer Channels around the gas distribution layer, what he considerable workload.

The invention has for its object a gas feed and distribution device according to the preamble of claim 1, in which the gas distribution  layer can be produced with little effort and ensuring an even gas distribution is.

This object is achieved with the invention in the characterizing part of patent claim 1 specified features.

According to the invention, the gas distribution layer consists of several plates, each of which several parallel Contains distribution channels. The large panels can be placed against each other, the gas distribution channels cursed with each other. Opposite a topping individual stones the number of required Components greatly reduced, for example by the factor 100 if the surface area of a plate a hundred times the surface area of the usual stones used wisely. The distribution channels are underneath a plate through transverse channels connected to each other so that there are different pressures equalize in the distribution channels via the cross channels. In this way, the gas distribution is evened out. An equalization of the gas outlet over the entire gas distribution layer also occurs in that the gas only defines from the outlet openings emerges and that undefined leakage flows like them loose stones against each other can result, be avoided.

The production of the gas distribution layer from large areas Not only simplifies the construction and the plates Assembly of the gas supply and distribution device, but also allows this device to be disassemble and rebuild elsewhere.  

There is occasionally a need to add a gas supply and distribution device only temporarily on one Site and then either to an un indirectly adjacent or removed to one to move the lying place. Such transfers can with the device according to the invention easily and be done quickly.

The distribution channels and cross channels can with your entire cross section can be formed in the plates. A simpler plate shape in terms of production technology results, however, if the cross channels and / or the Distribution channels to the underside of the plate are open. Such an open shape of the channels is then possible when the surface on which the plates rest rests is sealed. For example, on the pad a film can be arranged. The ends of the slide are to be trained so that a lossless collection of the Leachate is made possible. In other cases be is the document, for example, from the covering of one no longer used road, school playground, flight places u. Like. The device can also in existing Halls, for example, are temporarily required Storage and ventilation of fabrics used will. If such a surface is used, the Gas distribution layer immediately on this surface be arranged, the covering the distribution channels and Cross channels limited at the bottom. The cross channels should have a smaller cross-section than the distribution channels. The The cross-sectional size of the channels depends on the type Purpose of the device and the type of Gases flowing through channels. The cross channels have one higher flow resistance than the distribution channels and only serve to equalize pressure and flow equalization.  

With the features of claim 6, the gas supply simplified to the gas distribution layer by ent speaking curbs are provided, the un indirectly to the edge plates of the gas distribution layer shut down. This makes open channels and expensive Pipe systems around the gas distribution layer avoided.

With the feature of claim 7 is a simple gas supply while avoiding leakage enables.

The invention further relates to a plate for a gas supply and distribution device. These Plate has according to claim 11 a plurality of parallel distribution channels through Cross channels are interconnected. The distribution channels and / or the cross channels can with your entire cross section may be contained in the plate or they can be open on the underside of the plate be. The distribution and cross channels take over immediately the derivation of the seepage or overflow shot water.

The following are exemplary embodiments of the invention explained in more detail with reference to the drawings. It shows

Fig. 1 is a perspective view of a portion of a gas feed and distributor,

Fig. 2 is a perspective view of another embodiment, partially in section,

Fig. 3 shows the formation of an engagement part for the transport of a plate,

Fig. 4 is a section along the line IV-IV of Fig. 3 and

Fig. 5 the coupling of a gas supply line to a curb.

In the embodiment of Fig. 1, the gas supply and distribution device is erected on the ground. Here, a base 10 of rectangular concrete slabs 11 is first laid on the ground, the edges of the concrete slabs 11 abutting against one another and forming a flat, closed surface. The base 10 is covered with a plastic film 12 . The gas distribution layer 13 is applied to the plastic film 12 . This gas distribution layer consists of several prefabricated rectangular plates 14 made of concrete. Each of the plates 14 contains (not shown) parallel distribution channels which are connected to slot-shaped outlet openings 15 in the top of the plate. Above each distribution channel there is a row of slot-shaped outlet openings 15 which are transverse to the distribution channel in question. In the present embodiment, for example, a plate 14 contains five distribution channels, so that five rows of outlet openings 15 are present. The distribution channels are connected to one another by cross channels (not shown), the cross channels having a smaller cross section than the distribution channels. The cross channels are closed at both ends of the plate, so that they are not visible in Fig. 1.

The plate edges of the plates 14 consist of flat vertical surfaces. The distribution channels are open at two opposite plate ends, while the plate edges directed transversely thereto are closed.

Along an edge of the gas distribution layer 13 , edge stones 16 are arranged which directly adjoin the openings of the distribution channels and cover these openings. The curbs 16 contain a feed channel 17 running transversely to the distribution channels, from which branch channels (not shown) branch off to each of the distribution channels. The feed channel 17 extends through a plurality of stones arranged in a row.

The gas distribution layer 13 can be walked on and driven with vehicles. The vehicles unload bulk goods on the gas distribution layer 13 . Gas is introduced into the gas distribution layer 13 through the feed channel 17 . The gas leaving the gas distribution layer through the outlet openings 15 flows well into the bulk from below and promotes microbial growth in the bulk material. In this way, either the cleaning of the supplied gas, the decomposition of an organic bulk material or the ventilation of bulk material can take place.

Another plate 14 is shown in FIG. 2, the distribution channels 18 and the transverse channels 19 being visible. The distribution channels 18 and the transverse channels 19 are formed on the underside of the plate and thus open at the bottom. The lower boundary of these channels forms, for example, a plastic film or a flat floor covering on which the plate is placed. The Ver partial channels 18 extend in a straight line and parallel to each other over the entire length of the plate 14 and they are open at the plate ends. In contrast, the cross channels 19 are closed at the plate edges. The slot-shaped outlet openings 15 , which are arranged directly in each distribution channel 18 , have a cross section that decreases upwards from the upper end of the distribution channel. The transverse channels 19 which are triangular in the present case have a lower height than the arcuate distribution channels 18 .

In FIG. 2, the feed channel 17 formed in the curbs 16 can also be seen, from which a branch channel 20 leads to each distribution channel 18 . The channels 17 and 20 are also open at the bottom.

Raw gas, which is introduced into the feed channel 17 , is divided by the curbs 16 , which have the same height as the plate 14 , on the distribution channels 18 and from there either directly or via the cross channels 19 to the outlet openings 15 .

The large-area plates 14 have engagement parts 21 near the plate corners on the upper side. These engagement parts 21 consist of vertical rectangular slots which, as shown in FIGS. 3 and 4, pass through the plate 14 and open into a circular recess 22 on the underside of the plate. In each slot, the shaft 23 of a (not shown) hoist can be performed. At the lower end of the shaft 23 there is a head 24 with a rectangular cross section, which fits through the slot and can be transversely positioned in the interior of the recess 22 . In this way, four shafts of the lifting device can act on each of the plates in order to raise or lower the plate. The attack parts 21 do not protrude from the plate contour and do not hinder the walking or driving on the gas distribution layer 13th

Fig. 5 shows the coupling of a gas supply line 25 to the feed channel 17 of an edge stone sixteenth At the end of the gas supply line 25 there is an inflatable sealing element which surrounds the gas supply line 25 and can be inflated via a hose 27 , wherein it is supported in a sealing manner on the wall of the supply channel 17 . In this way, gas is fed from the gas supply line 25 into the supply channel 17 without leakage losses occurring. The sealing element 26 in the form of a cylindrical balloon also effects the mechanical fastening of the end of the gas supply line 25 in the supply channel 17 .

Claims (11)

1. Gas supply and distribution device for a gas cleaning, rotting or ventilation system, with a bulk material receiving gas distribution layer ( 13 ), which contains a plurality of distribution channels ( 18 ) which are connected to outlet openings ( 15 ) provided in the layer surface, characterized in that the gas distribution layer ( 13 ) consists of plates ( 14 ) which have a plurality of parallel distribution channels ( 18 ) interconnected by transverse channels ( 19 ). 2. Gas supply and distribution device according to claim 1, characterized in that the transverse channels ( 19 ) to the underside of the plate are open. 3. Gas supply and distribution device according to claim 1 or 2, characterized in that the distribution channels ( 18 ) to the underside of the plate are open. 4. Gas supply and distribution device according to one of claims 1 to 3, characterized in that the transverse channels ( 19 ) have a smaller cross section than the distribution channels ( 18 ). 5. Gas supply and distribution device according to one of claims 1 to 4, characterized in that the transverse channels ( 19 ) are closed on at least one plate end in edge plates, while in the middle plates all sides are open for the purpose of Luftver distribution. 6. Gas supply and distribution device according to one of claims 1 to 5, characterized in that along an edge of the gas distribution layer ( 13 ) edge stones ( 16 ) are arranged which form a transverse to the distribution channels ( 18 ) supply channel ( 17 ), go from the branch channels ( 20 ) to the respective distribution channels ( 18 ). 7. Gas supply and distribution device according to claim 6, characterized in that a gas supply line ( 25 ) which can be inserted into a supply channel ( 17 ), an inflatable sealing element ( 26 ) for clamping and sealing in the supply channel ( 17 ). 8. Gas supply and distribution device according to one of claims 1 to 7, characterized in that the gas distribution layer ( 13 ) rests on a level surface ( 10 ) sealed against moisture. 9. Gas supply and distribution device according to one of claims 1 to 8, characterized in that the plates ( 14 ) engaging parts ( 21 ) for a lifting device. 10. Gas supply and distribution device according to one of claims 1 to 9, characterized in that the plate edges from flat vertical surfaces consist.   11. Plate for a gas supply and distribution device for a gas cleaning, rotting or ventilation system, with distribution channels, which are connected to the openings provided in the top of the plate, characterized in that in the plate by transverse channels ( 19 ) interconnected distribution channels ( 18 ) are provided that the distribution channels ( 18 ) are open at the plate ends and that the transverse channels ( 19 ), which are connected to the outlet openings ( 15 ), are closed at the plate ends.